Which equation correctly computes energy required to raise the temperature of a mass by ΔT given its specific heat capacity c?

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Prepare for the Radiation and Heat Test. Sharpen your skills with multiple choice questions, each offering hints and explanations. Master the concepts and get exam-ready!

Multiple Choice

Which equation correctly computes energy required to raise the temperature of a mass by ΔT given its specific heat capacity c?

Raising the temperature of a mass requires energy that scales with how much material you have, how easily it heats (the specific heat), and how big the temperature change is. The specific heat capacity c tells you how much energy is needed to raise the temperature of one kilogram by one degree. If c is treated as constant over the interval, the energy input is found by integrating dQ = m c dT, which gives Q = m c ΔT. This makes sense dimensionally: kg × (J/kg·K) × K equals joules, so the units line up to express energy. The other forms mix up the factors or invert the relationship, which would not produce energy in joules. If c were not constant, the general form would be Q = ∫ m c(T) dT, but for constant c the simple product m c ΔT is the correct expression.

Which equation correctly computes energy required to raise the temperature of a mass by ΔT given its specific heat capacity c?

Prepare for the Radiation and Heat Test. Sharpen your skills with multiple choice questions, each offering hints and explanations. Master the concepts and get exam-ready!

Which equation correctly computes energy required to raise the temperature of a mass by ΔT given its specific heat capacity c?

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